Evidence for Different MCM Subcomplexes with Differential Binding to Chromatin inXenopus

MCM proteins are molecular components of the DNA replication licensing system inXenopus.These proteins comprise a conserved family made up of six distinct members which have been found to associate in large protein complexes. We have used a combination of biochemical and cytological methods to study...

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Bibliographic Details
Published in:Experimental cell research 1998-12, Vol.245 (2), p.282-289
Main Authors: Coué, Martine, Amariglio, Françoise, Maiorano, Domenico, Bocquet, Stéphane, Méchali, Marcel
Format: Article
Language:English
Subjects:
cell cycle
chromatin
DNA replication
nuclear localization
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Summary:MCM proteins are molecular components of the DNA replication licensing system inXenopus.These proteins comprise a conserved family made up of six distinct members which have been found to associate in large protein complexes. We have used a combination of biochemical and cytological methods to study the association of soluble and chromatin-boundXenopusMCM proteins during the cell cycle. In interphase, soluble MCM proteins are found organized in a core salt-resistant subcomplex that includes MCM subunits which are known to have high affinity for histones. The interphasic complex is modified at mitosis and the subunit composition of the resulting mitotic subcomplexes is distinct, indicating that the stability of the MCM complex is under cell cycle control. Moreover, we provide evidence that the binding of MCM proteins to chromatin may occur in sequential steps involving the loading of distinct MCM subunits. Comparative analysis of the chromatin distribution of MCM2, 3, and 4 shows that the binding of MCM4 is distinct from that of MCM2 and 3. Altogether, these data suggest that licensing of chromatin by MCMs occurs in an ordered fashion involving discrete subcomplexes.
ISSN:0014-4827
1090-2422
DOI:10.1006/excr.1998.4271